1271669 九、發明說明: 【發明所屬之技術領域】 尤指利用於計算一生產 本發明係關於一種工時系統 線之標準工時之工時系統。 【先前技術】 於管理工廠生產線之運作日寺,'工日寺管理是一項相當重 要的課題,目的是要產生-標準,,提供_作為;估 生產效率以及調度生產線之依據。 生產線於運作前會先收到-製令,對應該製令即為— 製程,可例如為於半成品階段之雜程、成輯段之某彭 程、包裝階段之製程皆是。依生產線f理人員之經驗,配 合-特定之產品型號,製程會對應出—單位時間,再配合 了解生產產品數I’則會得到—生產卫時。但為了要了解 標準工時’尚須考慮轉嫁卫時,—般來說,轉嫁工時係因 為重工、待料、檢驗不良…等失敗狀況之因素所產生。 進-步說明,所考量之轉嫁工時也相當複雜,係包含 一通又失敗狀況以及特任失敗狀況。如重工等因素,其轉嫁 工時的計算可以依據前述製程經驗而推算的,稱為一 敗狀況。其他如鑛、檢驗不良的突發航,不能以正常 製程之經驗來推算的,則稱為特任失敗狀況。 當標準工時被評灿來後,可另外麟該生產線實際 之統計工時,再將該標準工時比較該統計工時,可以得到 該生產線之生級率,除了枝讀㈣監控生產線之運 ^271659 作政率外’也能提供人轉π核發獎金之依據。 所評估出之標準工時,可另外崎—可用 =可Γ時係根據出勤工時、缺勤工時、以及加班工時 2,,表示為目前生產線實際可利用的工時。根據比對的 k理忙碌程度’以提供工廠生產線 々吕理人貝作為生產線調度之依據。 然而,在繁忙、複雜、且緊張的生產線上,人工方式 的雜’其錯誤發生㈣會大,並且評估的速度也較慢, 口^嚴重降低生產線的生產效能,並且於評估績效發生 錯疾的話,更會嚴重打擊員工的士氣。 因此,本發明的主要目的在於提供一種利用於計算一 生產線之標準工時之工時系統,以解決上述問題。 【發明内容】 本1¾明之目的在藉由一種利用於計算一生產線之標準 工時之工時系統,自動化的產生生產線之標準工時,藉以 提高生產線之生產效率。 本發明係關於一種用以計算一生產線之標準工時之工 時系統,係包含一製令接收介面、一儲存裝置、一產品型 號輸入介面、一數量輸入介面、一生產工時計算模組、一 失敗狀況輸入介面、一轉嫁工時計算模組、以及一標準工 時計算模組。 該製令接收介面係用以接收一製令。該儲存裝置係用 以儲存该极數個氣令與3亥製程之相對應關係,並用以儲存 1271669 該製程配合-產品型號,所對應出之單位時間,以及儲存 般失敗狀況與該製程之相對應關係。 該產品型號輸人介面制以接收對應該製令之產品型 號。該數量輸入介面係用以接收對應該製令之生產產品數 量,並用以另外接收對應該一般失敗狀況之轉嫁產品數量。 該生產工料算模_根獅製令魏介面所接收之 製令,以於簡存裝置巾職撕應之製程。並根據該產 品型號輸人介面所接收之產品魏,該儲存裝置中對 應相對應之單位_。接續再並根據魏量輸人介面所輸 入之生產產品數量,以產生一生產工時。 該失敗狀況輸人介面_以接收—失敗狀況資訊,其 中所述失敗狀況資訊係包含該一般失敗狀況。 該轉嫁工時計算模_根獅失敗狀況輸人介面所接 收之-般失敗狀況,以於該儲存裝置帽應相對應之製 程,進而對應相對應之單位時間,並根據該數量輸入介面 所輸入之轉嫁產品數量,以產生一轉嫁工時。 該標準工断顧_累賴生產工_及該轉嫁工 時,以產生一標準工時。 ' 進一步,該失敗狀況資訊除包含該一般失敗狀況外, 更包含一特任失敗狀況。於該失敗狀況輸入介面接收該特 任失敗狀況後,該失敗狀況輸入介面會發出一特任呼叫訊 w,並透過該特任呼叫訊息以接收來自外界之特任轉嫁工 ,。其中’轉嫁讀計組,雜獅失敗狀況輸入 介面所接收之-般失敗狀況,對應相對應之製程,進而對 1271669 應相對應之單位時間,並根據該數量輸入介面所輸入之轉 嫁產品數量所產生之讀,進―步加上雜任轉嫁工時, 以產生該轉嫁工時。 因此,藉由本發明利用以計算一生產線之標準工時之 工時系統,自動化的產生生產線之標準工時,提供後續評 估生產效率,以及提供作為生產線調度依據之用,藉以方 便管理生產線,進而提高生產線之生產效率。 關於本發明之優點與精神可以藉由以下的發明詳述及 所附圖式得到進一步的瞭解。 【實施方式】 請參閱圖一’圖一係本發明工時系、统3 〇之示意圖。本 發侧於-種利用於計算一生產線之標準工時之 30 ’係包含-製令接收介面32、一產品型號輸入介面3、4、、 -儲存裝置36、-數量輪人介面38、—生红時計算模組 40、-失敗狀況輸人介面42、-轉嫁工時計算模組4心 及一標準工時計算模組46。 製令接收介面32伽以接收來自外部制者52所輪 入之製令。 ^ 根據圖-進-步參_二’圖二係本發_存褒置 =存内容之對應示雜。儲存裝置S6 存複數 令80與製程82之相對應_姻以儲存製程82配合一、 產品型號84 ’所對應出之單位時間86,以及用二— 般失敗狀況88與製程82之相對應關係。 予 1271669 再回到圖一,產品型號輸入介面34係用以接收來自 部使用者52對顧製令所輸人之產品型號。 數量輸入介面38伽以接收來自外部使用者5 入對應該製令之生產產品數量。此外,並糾用以接收: 自外部使用者52所輸入對應該一般失敗狀況之轉嫁產品 數量。 阳 生產工時計算模組4〇係根據製令接收介面犯所接收 之製f ’健存裝i 36中對應相對應之製程。並根據產 品型號輸人介面34所接收之產品型號,崎儲存茫置% 中對應相對應之單位_。接續再並根據數量輸人; 所輸入之生產產品數量,域生—生產工時。 例士製々接收介面32所接收之製令代號為mi 112, 此,號M1112製令於儲存裝置36中係對應以代表為「後段 包裝」之製程,產品型號輸人介面34所接收之產品型號為 FD-701,於儲存裝置36中FD_7〇1對應「後段包裝」之單 位時間為150秒。絲量輸入介面38所輸入之生產產品數 量為100個,則生產工時為150乘以1〇〇則得15〇〇〇秒(或 為250分鐘)。 失敗狀況輸入介面42係用以接收來自外部使用者52 所輸入之失敗狀況資訊,其中所述失敗狀況資訊係包含該 一般失敗狀況。 轉嫁工時計算模組44係根據失敗狀況輸入介面42所 接收之一般失敗狀況,以於儲存裝置36中對應相對應之製 程,進而對應相對應之單位時間,並根據數量輸入介面骀 1271669 輪入之轉嫁產品數量,以產生一轉嫁工時。 勺例如」—般失敗狀況為「FD-701於M1112所發生之破 ^定需要重工,於儲存裝置36帽應此一般失敗狀 於之=私仍為「後段包裝」,數量輸入介面38所輸入之轉 豕產即數1為3個’於是轉嫁工時為⑽乘以3則得棚 士標準工時計算模組46係⑽該生紅時以及該轉嫁 恰以產生一標準工時,可以提供外部使用者兕明瞭。 如上例標準卫時即為15_秒加上450秒,而得15450秒。 -進步’凊參閱圖三,圖三係本發明理由確認模組48 之示意圖。前述之工時系統30更包含一理由確認模組48, 於失2狀況輸人介面42接收外部使用者52所輸入之失敗 狀況貝汛90後,理由確認模組仙會發出一呼叫確認訊息 92以通知外界之審核人員94,並接收自審核人員94所輸 入之確認訊息96(即確認同意處理此失敗狀況),以使轉嫁 工時計算模組44後續產生該轉嫁工時。 立請參閱圖四,圖四係本發明失敗狀況輸入介面42之示 思圖。如祕之工時系統3〇,其中該失敗狀況資訊除包含 该-般失敗狀況53外,更進—步包含—特任失敗狀況51。 於失敗狀況輸人介面42接絲自外部使肖者52所輸入之 特任失敗狀況51彳4,失敗狀況輸人介自42會發出一特任 呼叫訊息傳遞給外敎额人貞94,喊續接收來 自審核人員94輸入自外界之特任轉嫁工時54。 後續,#嫁工時計算模組44根據失敗狀況輸入介面 10 1271669 42所接,來自外部使用者52所輸入之-般失敗狀況53, 於1存衣置36中對應相對應之製程,進而對應相對應之單 位時間,並根據數量輸入介面38所輸入之轉嫁產品數量, 而產生之關於-般失敗狀況之卫時。進—步將關於一般失 敗狀況之工日$加上失敗狀況輸入介面42所接收之特任轉 嫁工時54 ’就會產生出轉嫁工時57。 立明參閱圖五,圖五係本發明統計工時輸入介面之示 意,。如前述之工時系統30,工時系統30更包含一統計 工時輸入介面60,係用以接收外部使用者52所統計該生 產,的工作時數以產生實際之統計工時,其中將標準工時 計算模組46所產生之標準工時比較該統計工時,就可以產 生该生產線之生產效率,以供後續外部使用者52明瞭,並 進一步可加以管理。 晴參閱圖六,圖六係本發明勤務輸入介面7〇之示意 圖。如前述之工時系統30,工時系統3〇更包含一勤務^ 入介面70,係用以接收來自外部使用者52所輸入之出勤 資1、缺勤資料、加班資料,以產生一出勤工時、一缺勤 工時、以及一加班工時,並根據該出勤工時、該缺勤工時、 以及e亥加班工時以產生一可用工時。例如以出勤工時加上 加班工時,再減去缺勤工時,即得可用工時。其中將標準 工時計算模組46所產生之標準工時比較該可用工時,就可 以產生3生產線之调度資料,以供後續外部使用者52明 瞭,並進一步可加以管理。 因此,藉由本發明利用以計算一生產線之標準工時之 工時系統30,自動化的產生生產線之標準工時,提供後續 1271669 評估生產效率,以及提供作為生產線調度依據之用,藉以 方便管理生產線,進而提高生產線之生產效率。 猎由以上較佳具體實施例之詳述,係希望能更加清楚 描述本發明之特徵與精神,而並非以上述所揭露的較佳具 體貝加例來對本發明之範驚加以限制。相反地,其目的是 希望能涵蓋各種改變及具相等性的安排於本發明所欲申請 之專利範圍的範轉内。1271669 IX. Description of the invention: [Technical field to which the invention pertains] In particular, it is used in the calculation of a production. The invention relates to a working hour system for standard working hours of a working hour system line. [Prior Art] In the operation of the factory production line, the construction of the factory is a very important topic, the purpose is to produce - standards, provide _ as; to estimate production efficiency and the basis for scheduling production lines. The production line will receive the pre-operation order before the operation, and the corresponding order is the process, which can be, for example, the process of the semi-finished product, the process of the process, and the process of the packaging stage. According to the experience of the production line, with the specific product model, the process will correspond to the unit time, and then cooperate with the number of production products I' will get the production time. However, in order to understand the standard working hours, it is necessary to consider the transfer of the guardian. In general, the transfer of working hours is caused by factors such as heavy work, waiting for materials, bad tests, etc. The step-by-step description, the consideration of the transfer work time is also quite complicated, including a failure and a failure condition. For factors such as heavy work, the calculation of the transfer work time can be calculated based on the above-mentioned process experience, which is called a failure situation. Other sudden failures such as mines and poor inspections cannot be calculated based on the experience of normal processes. When the standard working hours are evaluated, the actual statistical working hours of the production line can be additionally used, and the standard working hours can be compared with the statistical working hours to obtain the production rate of the production line, except for the monitoring of the production line. ^271659 The situation outside the government can also provide the basis for people to turn π to issue bonuses. The standard working hours evaluated can be expressed as the actual working hours of the current production line based on the working hours, absence work hours, and overtime hours 2. According to the comparison of the degree of busyness, the factory production line 々吕理人贝 is used as the basis for production line scheduling. However, on busy, complex, and tight production lines, the artificial type of error (the fourth is large), and the evaluation speed is slower, the production efficiency of the production line is seriously reduced, and the performance is wrong. It will also seriously hurt the morale of employees. Accordingly, it is a primary object of the present invention to provide a working hour system for calculating the standard working hours of a production line to solve the above problems. SUMMARY OF THE INVENTION The purpose of the present invention is to improve the production efficiency of a production line by automatically generating a standard working hour of a production line by using a working hour system for calculating a standard working time of a production line. The invention relates to a working hour system for calculating a standard working time of a production line, which comprises a manufacturing receiving interface, a storage device, a product type input interface, a quantity input interface, a production time calculation module, A failure status input interface, a conversion time calculation module, and a standard work time calculation module. The order receiving interface is used to receive a manufacturing order. The storage device is configured to store the corresponding relationship between the number of gas orders and the 3 hai process, and is used to store 1271669 the process fit-product model, the corresponding unit time, and the storage failure condition and the process phase. Correspondence relationship. The model number is entered into the interface to receive the product model corresponding to the manufacturing order. The quantity input interface is used to receive the number of production products corresponding to the manufacturing order and to additionally receive the number of the transferred products corresponding to the general failure condition. The production material calculation model _ root lion system ordered the Wei interface to receive the order, in order to facilitate the process of tearing down the device. And according to the product received by the product model input interface, the corresponding unit in the storage device _. Then, according to the quantity of production products input by the Wei input interface, a production man-hour is generated. The failure status input interface _ to receive - failure status information, wherein the failure status information includes the general failure status. The transfer work time calculation mode _ root lion failure status input interface receives the general failure condition, so that the storage device cap should correspond to the process, and corresponding to the corresponding unit time, and input according to the quantity input interface The number of products passed on to generate a transfer of working hours. The standard workman _ depends on the production worker _ and the transfer work to generate a standard working hour. Further, the failure status information includes a special failure status in addition to the general failure status. After the failure status input interface receives the special failure status, the failure status input interface sends a special call message w, and receives the special call message from the outside through the special call message. Among them, the 'transfer reading group, the general failure condition received by the lion failure status input interface, corresponding to the corresponding process, and then the unit time corresponding to 1271669, and the number of the transferred products input according to the quantity input interface Produce the reading, step by step and add the miscellaneous to the work to generate the transfer time. Therefore, the present invention utilizes a standard working hour system for calculating a production line, automatically generates standard working hours of the production line, provides subsequent evaluation of production efficiency, and provides as a basis for scheduling of the production line, thereby facilitating management of the production line, thereby improving Production efficiency of the production line. The advantages and spirit of the present invention will be further understood from the following detailed description of the invention. [Embodiment] Please refer to FIG. 1 'FIG. 1 is a schematic diagram of the working hours and system of the present invention. The present invention is used to calculate the standard working hours of a production line, the 30' system includes a manufacturing receiving interface 32, a product type input interface 3, 4, a storage device 36, a quantity wheel interface 38, The redness calculation module 40, the failure status input interface 42, the transfer work time calculation module 4 core, and a standard work time calculation module 46. The command receiving interface 32 is tuned to receive a command from the external producer 52. ^ According to the figure-in-step-step _two' Figure 2 is the corresponding _ 褒 褒 = = corresponding content of the memory. The storage device S6 stores the number 80 in association with the process 82. The storage process 82 is matched with the unit time 86 corresponding to the product model 84', and the corresponding relationship between the second failure condition 88 and the process 82 is used. 1271669 Referring back to Figure 1, the product model input interface 34 is used to receive the product model of the user input from the user 52. The quantity input interface 38 is used to receive the number of production products from the external user 5 corresponding to the order. In addition, it is used to receive: the number of transferred products that are input from the external user 52 corresponding to the general failure condition. The yang production time calculation module 4 is based on the corresponding corresponding process in the system f receiving the interface received by the manufacturing order receiving interface. According to the model number of the product received by the product model input interface 34, the corresponding unit _ in the storage unit %. Continued and input according to the quantity; the number of production products entered, domain-production hours. The order code received by the 々 々 receiving interface 32 is mi 112, and the number M1112 is ordered in the storage device 36 to represent the process of the "rear package", and the product model input interface 34 receives the product. The model number is FD-701. In the storage device 36, the unit time of FD_7〇1 corresponding to the "rear package" is 150 seconds. The number of production products input by the wire input interface 38 is 100, and the production man-hour is 150 times 1 time, which is 15 seconds (or 250 minutes). The failure status input interface 42 is for receiving failure status information input from an external user 52, wherein the failure status information includes the general failure status. The transfer time calculation module 44 is based on the general failure condition received by the failure status input interface 42 for corresponding processing in the storage device 36, and corresponding to the corresponding unit time, and is input according to the quantity input interface 骀1271669. The number of products passed on to generate a transfer of working hours. The scoop, for example, "general failure" is "FD-701 is broken in M1112 and needs to be reworked. In the storage device 36, the cap should generally fail. The private is still "rear package", and the number input interface 38 is input. The number of conversions is 1 for 3 'then the time for the transfer of the work is (10) multiplied by 3 to get the standard work time calculation module 46 (10) when the red is born and the transfer is just to produce a standard working hour, can provide External user instructions. In the above example, the standard guard time is 15_seconds plus 450 seconds, and 15450 seconds. - Progression 凊 Referring to Figure 3, Figure 3 is a schematic diagram of the reason validation module 48 of the present invention. The foregoing working system 30 further includes a reason confirmation module 48. After the failure status 2 input interface 42 receives the failure status of the external user 52, the reason confirmation module sends a call confirmation message 92. To notify the outside auditor 94, and receive the confirmation message 96 input from the auditor 94 (ie, confirm the consent to handle the failure condition), so that the transfer work time calculation module 44 subsequently generates the transfer work time. Referring to Figure 4, Figure 4 is a diagram of the failure status input interface 42 of the present invention. For example, the work status system of the secret is 3, and the failure status information includes the failure status 53 in addition to the failure status 51. In the failure state, the input interface 42 is connected to the outside from the outside, and the special failure status entered by the reader 52 is 51彳4, and the failure status input from 42 will send a special call message to the foreigner, 94, shouting Continue to receive the special transfer work from the auditor 94 input from the outside 54. Subsequently, the #marriage time calculation module 44 is connected according to the failure status input interface 10 1271669 42, and the general failure condition 53 input from the external user 52 corresponds to the corresponding process in the storage device 36, and further corresponds to Corresponding to the unit time, and according to the number of the number of the transferred products input by the number input interface 38, the security time of the general failure condition is generated. The step-by-step conversion of the workday of the general failure state plus the failure status input interface 42 received by the special transfer voucher 54 ’ will result in the transfer of work hours57. Referring to Figure 5, Figure 5 is a schematic representation of the statistical work input interface of the present invention. For example, the working time system 30 further includes a statistical working time input interface 60 for receiving the working hours of the production by the external user 52 to generate actual statistical working hours, wherein the standard is used. The standard working hours generated by the time calculation module 46 compare the statistical working hours to produce the production efficiency of the production line for subsequent external users 52 to be aware of and further manageable. Refer to Figure 6, and Figure 6 is a schematic diagram of the service input interface of the present invention. For example, the working system 30 includes a service interface 70 for receiving the attendance, absence data, and overtime information input from the external user 52 to generate a working hour. There is a lack of working hours, and an overtime work time, and according to the working hours, the absence of working hours, and the e-hour working hours to generate a working hour. For example, when working hours are added to the working hours, and the absence of working hours is subtracted, the available working hours are obtained. The standard working hours generated by the standard working time calculation module 46 are compared to the available working hours, and the scheduling data of the 3 production lines can be generated for subsequent external users 52 to be clearly defined and further managed. Therefore, by the present invention, the standard working hours of the production line are automatically calculated by using the working hour system 30 for calculating the standard working hours of a production line, and the subsequent 1271669 is provided to evaluate the production efficiency, and is provided as a basis for scheduling the production line, thereby facilitating the management of the production line. In turn, the production efficiency of the production line is improved. The features and spirit of the present invention are intended to be more apparent from the detailed description of the preferred embodiments. On the contrary, the intention is to cover various modifications and equivalent arrangements within the scope of the invention as claimed.
【圖式簡單說明】 圖一係本發明工時系統之示意圖; 圖二係本發明儲存裝置儲存内容之對應示意圖; 圖三係本發明理由確認模組之示意圖; 圖四係本發明失敗狀況輸入介面之示意圖; 圖五係本發明統計工時輸入介面之示意圖丨以及 圖六係本發明勤務輸入介面之示意圖。BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic diagram of a working system of the present invention; FIG. 2 is a schematic diagram of a storage content of the storage device of the present invention; FIG. 3 is a schematic diagram of a reason confirmation module of the present invention; FIG. 5 is a schematic diagram of the statistical working input interface of the present invention and FIG. 6 is a schematic diagram of the service input interface of the present invention.
【主要元件符號說明】 3〇 :工時系統 34 ·產品型號輸入介面 38 :數量輸入介面 42 ·失敗狀況輸入介面 46 ··標準工時計算模組 32 :製令接收介面 36 :儲存裝置 40 :生產工時計算模組 44 :轉嫁工時計算模組 48 :理由確認模組 12 1271669 51 :特任失敗狀況 50 :特任呼叫訊息 52 :使用者 54 :特任轉嫁工時 60 :統計工時輸入介面 70 :勤務輸入介面 80 :製令 84 :產品型號 88 : —般失敗狀況 92 :呼叫確認訊息 96 :碟認訊息 57 :轉嫁工時 82 ··製程 86 ·•單位時間 90 :朱敗狀況資訊 94 :審核人員 53 : —般失敗狀況 13[Main component symbol description] 3〇: Working hours system 34 · Product type input interface 38 : Quantity input interface 42 · Failure status input interface 46 · · Standard working time calculation module 32 : Manufacturing order receiving interface 36 : Storage device 40 : Production Time Calculation Module 44: Transfer Time Calculation Module 48: Reason Confirmation Module 12 1271669 51: Special Failure Status 50: Special Call Message 52: User 54: Special Transfer Work Time 60: Statistical Work Hours Input interface 70: Service input interface 80: Manufacturing order 84: Product model 88: General failure status 92: Call confirmation message 96: Disc recognition message 57: Transfer work time 82 · · Process 86 ·• Unit time 90: Zhu defeat status Information 94: Reviewer 53: General Failure Status 13